Call for Papers

Please contact the symposium organizers with questions.

With living systems as inspiration, a grand challenge in materials research is achieving the rational design of hierarchical materials for complex functions based on a predictive understanding of materials synthesis across scales. This symposium will bring together experimental and computational researchers from across the science and engineering community to discuss innovative approaches to mastering the free energy landscapes that control the assembly of complex building blocks into ordered and functional hybrid hierarchical systems. This symposium is inspired by research pioneered at the Center for the Science of Synthesis Across Scales (CSSAS), an Energy Frontier Research Center.

This symposium will explore the convergence of science and engineering required for hierarchical materials design and the connection between building block synthesis and assembly to achieve hierarchy and emergent function. Key topics to be covered include 1) Fundamentals of Hierarchical Materials - We will delve into the foundational principles that govern the assembly of complex building blocks into ordered and functional hybrid hierarchical systems. This symposium will provide a platform to explore the convergence of scientific disciplines in the pursuit of this understanding; 2) Computational Insights - Computational approaches are integral in predicting and modeling the free energy landscapes that control materials assembly across scales. We will showcase cutting-edge computation, simulation, and modeling methods and their applications in hierarchical materials design; 3) Experimental Advances in Applications - The symposium will feature groundbreaking experimental research that translates theoretical insights into practical applications, including energy and sustainability, biology and medicine, and metamaterials and exotic physical phenomena. Attendees will gain valuable insights into the latest advances in the application of hierarchical hybrid materials to next-generation technologies.

Topics will include:

• Synthesis of hybrid hierarchical materials
• Application of hybrid hierarchical materials: Energy and the environment
• Application of hybrid hierarchical materials: Metamaterials
• Application of hybrid hierarchical materials: Biology and medicine
• Theory and simulation to predict the form and function of hybrid hierarchical materials

Invited Speakers (tentative):

• Francois Baneyx (University of Washington, USA)
• Qian Chen (University of Illinois at Urbana-Champaign, USA)
• Patrick Huber (Technische Universität Hamburg, Germany)
• Yashuiro Ishida (RIKEN, Japan)
• Robert Macfarlane (Massachusetts Institute of Technology, USA)
• Valerie Marchi (Université de Rennes, France)
• Sunita Srivastava (Indian Institute of Technology Bombay, India)
• Tiffany Walsh (Deakin University, Australia)
• Uli Weisner (Cornell University, USA)
• Shelley Wickham (The University of Sydney, Australia)

Symposium Organizers